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CXA2515AM/AN
RF Amplifier for CD Player and CD-ROM For the availability of this product, please contact the sales office.
Description The CXA2515AM/AN is an IC for RF signal processing of CD player and CD-ROM. Features * Wide-band RF amplifier. (RF signal fc 12MHz) * RF equalizer (T type) * EFM time constant can be adjusted (with switching function) * APC (Automatic Power Control) function * Power saving function * Supports laser coupler Functions * RF summing amplifier * RF equalizer * Focus error amplifier * Tracking error amplifier * APC circuit CXA2515AM 20 pin SOP (Plastic) CXA2515AN 20 pin SSOP (Plastic)
Absolute Maximum Ratings * Supply voltage VCC * Storage temperature Tstg * Allowable power dissipation PD
7 V -65 to +150 C 500 mW
Operating Conditions * Supply voltage VCC - GND +3.0 to +5.5 V * Operating temperature Topr -20 to +75 C Applications * CD players * CD-ROM drives
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
-1-
E96317D8Y
CXA2515AM/AN
Block Diagram
LD 1
1.25V 10k 10k 55k 56k VC BUFFER APC 10k 56k 1k 25
VCC 40k
20 APC_ON
PD 2
40k
19 MODE
NC 3 VCC PD1 4 10k 10k PD2 5 RF Summing Amp 348k 348k GND 7 32k 32k VC Focus Error Amp E8 174k 11p 5p F9 Tracking Error Amp 73.4k 320k RF Drive Amp Standby BGR 2k
VCC
18 VCC
20k
17 RF_M
VC
16 BPF_SW
VC VC 6
15 LPF_SW
14 RFO_1
13 RFO_2
12 FE
TE1 10
VC
Tracking Drive Amp
11 TE
-2-
CXA2515AM/AN
Pin Description Pin No. Symbol I/O Equivalent circuit Description
10k
1
LD
O
1k 1
APC amplifier output.
2
PD
I
2
8k
55k
APC amplifier input.
10k
3
NC
No connection.
10k 10k 20k 124
4 5
PD1 PD2
I I
4 32k
Input of RF summing amplifier and focus error amplifier.
348k
124 5
32k 174k VC
348k VC
120
25 6
6
VC
O
120
(VCC + GND) / 2 DC voltage output.
7
GND -3-
Ground.
CXA2515AM/AN
Pin No.
Symbol
I/O
Equivalent circuit
Description
124 8
124 9
8 9 10 11
E F TE1 TE
I I O O
124 11
320k 73.4k
124 10
Tracking error amplifier input for Pins 8 and 9; tracking error amplifier output for Pin 10; tracking error drive output for Pin 11.
348k
12
FE
O
348k
124 12
Focus error amplifier output for Pin 12.
13
RFO_2
O
124 14 13
Buffer switch output which sets the RF signal time constant. OFF when Pin 19 is connected to VCC, ON when it is connected to GND.
1k
14 17
RFO_1 RF_M
O I
124 17 2k 14
Non-inversion input of RF drive amplifier for Pin 17; RF signal output for Pin 14; resistance value connected between Pins 14 and 17 which determines the low frequency gain of RF drive amplifier.
124 15
15
LPF_SW
O
124 17
Transistor switch output which sets the LPF cut-off frequency of RF amplifier. OFF when Pin 19 is connected to VCC, ON when it is connected to GND.
-4-
CXA2515AM/AN
Pin No.
Symbol
I/O
Equivalent circuit
Description
124 16
16
BPF_SW
O
VC
Transistor switch output which sets the RF amplifier BPF boost. OFF when Pin 19 is connected to VCC, ON when it is connected to GND.
18
VCC
VCC.
50k 124
19
MODE
I
19
50k
30k
Multiple-speed mode switching input. VCC : High multiple-speed mode GND: Low multiple-speed mode
20
APC_ON
I
20 100k
APC amplifier ON/OFF switching. OFF when connecting to VCC; ON when connecting to GND.
-5-
Electrical Characteristics Bias conditions E1 0V 6.3 -6.3 1.45 25 100 20 20 16.5 -3 -3 1.3 -- DC voltage measurement V1 = 100mVpp, f = 1kHz O V1 = 100mVpp, f = 1kHz G2-1 to G2-2 V1 = 100mVpp, f = 20kHz Difference for G2-1 O O 300mV 300mV V1 = 100mVpp, f = 20kHz Difference for G2-2 DC voltage measurement DC voltage measurement -50 17.7 17.7 -3 -4 -4 1.9 -- 20.3 -- -- 2.3 -1.3 0 20.7 20.7 0 -- -- 2.4 -2.3 3 150 300 23 23 23.3 -- -- -- -0.3 50 23.7 23.7 3 -- -- -- -1.9 -- 12 300mV 300mV 0V -2.0V O 2.0V -2.0V -2.0V 2.0V -2.0V 300mV 2.0V -300mV 0V 12 14 13 14 V1 = 100mVpp, f = 12MHz Difference for G1-1 V1 = 100mVpp, f = 4MHz Difference for G1-2 DC voltage measurement DC voltage measurement 13 V1 = 100mVpp, f = 100kHz 14 V1 = 100mVpp, f = 100kHz O O O O O O 14 V1 = 100mVpp, f = 100kHz 16.5 16.5 13 Pin DC current measurement -50 -2.0V 14 Pin DC current measurement -50 2.0V 18 Pin DC current measurement -- 7 Pin DC current measurement -12 300mV 2.0V -2.0V 18 Pin DC current measurement -- mA mA mA mV mV dB dB dB dB dB V V mV dB dB dB dB dB V V E2 E3 E4 Min. Typ. Max. Unit
(Ta = 25C, VCC = 2.5V, GND = VC, VEE = -2.5V)
Measurement No.
Measurement item
Symbol
SW conditions
S1 S2 S3 S4
MeasureDescription of output waveform ment and measurement method point
1
Current consumption
ICC
2
Current consumption
IEE
3
Standby current
Istb
4
Offset voltage
V1-1
5
Offset voltage
V1-2
6
Voltage gain
G1-1
O
7
Voltage gain
G1-2
O
8
Voltage gain
G1-3
O
RF amplifier
9
Frequency response
F1-1
O
10
Frequency response
F1-2
O
FE amplifier
-6-
11
Maximum output amplitude H
V1-2
O
12
Maximum output amplitude L
V1-3
O
13
Offset voltage
V2-1
14
Voltage gain 1
G2-1
O
15
Voltage gain 2
G2-2
16
Voltage gain difference G2-3
17
Frequency response 1
F2-1
O
18
Frequency response 2
F2-2
19
Maximum output amplitude H
V2-2
CXA2515AM/AN
20
Maximum output amplitude L
V2-3
O
Measurement No.
Measurement item E1 0V -50 17.9 17.9 -3 -4 -4 -4 -4 1.9 -- -- DC voltage measurement DC voltage measurement 2.0V -2.0V 6 DC voltage measurement I1 = 0.8mADC, DC voltage measurement DC voltage measurement -1.2 0.8 1.8 -- -0.1 -- -- -- -- -- -- -1.6 0.1 2.1 2.45 -- -- 0 20.9 23.9 3 -- -- -- -- -- -1.9 -0.1 1.6 -- -- 0 0.1 20.9 23.9 dB dB dB dB dB dB dB V V V V V V V V 50 O V1 = 100mVpp, f = 1kHz O V1 = 100mVpp, f = 1kHz G3-1 to G3-2 O -2.0V O -2.0V 2.0V O O 300mV O 300mV 0V 123mV 177mV 0V 69mV 1 V1 = 100mVpp, f = 200kHz Difference for G3-1 V1 = 100mVpp, f = 200kHz Difference for G3-2 DC voltage measurement DC voltage measurement DC voltage measurement O V1 = 100mVpp, f = 20kHz Difference for G3-2 V1 = 100mVpp, f = 20kHz Difference for G3-1 0V 2.0V -2.0V 11 DC voltage measurement 0 mV E2 E3 E4 Min. Typ. Max. Unit
Symbol
SW conditions
Bias conditions
S1 S2 S3 S4
MeasureDescription of output waveform ment and measurement method point
21
Offset voltage
V3-1
22
Voltage gain 1
G3-1
23
Voltage gain 2
G3-2
24
Voltage gain difference G3-3
25
Frequency response 1
F3-1
26
Frequency response 2
F3-2
TE amplifier
27
Frequency response 3
F3-3
28
Frequency response 4
F3-4
APC
VC
-7-
29
Maximum output amplitude H
V3-2
30
Maximum output amplitude L
V3-3
31
Offset voltage 1
V4-1
32
Offset voltage 2
V4-2
33
Offset voltage 3
V4-3
34
Offset voltage 4
V4-4
35
Offset voltage 5
V4-5
36
Offset voltage
V5-1
CXA2515AM/AN
Electrical Characteristics Measurement Circuit
I1 1.25V 20 E4 MODE E3 VCC 10k 25 40k 19 56k VC BUFFER 40k APC VCC 18 VCC Standby RF_M 10k 10k 2k 16 150p LPF_SW 15 RF Drive Amp RFO_1 14 10k Focus Error Amp 174k 11p 5p Tracking Error Amp 73.4k 320k TE 11 Tracking Drive Amp 10k 12 FE 10k 13 RFO_2 10k 1p 3.9k 510 20k BGR 17 1k BPF_SW 10k 56k 10k 55k 1k VCC APC_ON
VCC
LD
1
E2
VEE
PD
2
NC
3
S1
PD1
4
S2
PD2
VCC RF Summing Amp 348k 348k 32k 32k
5
-8-
33
VC
6
33
VEE
VEE
GND
7
S3
E
8
43k
110k
S4
F
9
43k
110k
V1
TE1
10
CXA2515AM/AN
E1
Application Circuit (Double-/sextuple-speed switching)
VCC
22 1.25V 20 10k 25 40k MODE VC BUFFER 40k APC VCC 18 VCC Standby RF_M 10k 10k 2k 16 RF Summing Amp 348k 348k 32k 32k VC Focus Error Amp 174k 11p 5p Tracking Error Amp 73.4k 320k TE VC Tracking Drive Amp 11 12 FE 13 30k VC Focus Error Out RFO_2 4700p RF OUT RF Drive Amp RFO_1 14 1000p VC LPF_SW 15 3.9k 68p 390 1p 20k BGR 17 13p BPF_SW 1k VCC 10k 56k 19 MODE 56k 10k 55k 1k VCC APC_ON
100
LD
1
10
100
PD
2
1
500
NC
3
PD1
PD1 IN
4
PD2
PD2 IN
5
-9-
VC
VC
6
GND
7
E IN
E
43k
8
110k
F IN
VC F
9
43k
110k
TE1
10
Tracking Error Out
CXA2515AM/AN
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
CXA2515AM/AN
Note on Operation The RF AC maximum output amplitude is 1.3Vpp when Pin 13 and 14 are capacitor-coupled shown in Application Circuit. Description of Operation RF Amplifier The signal currents from the photodiodes A, B, C and D become PD1 = A + C and PD2 = B + D by I-V converting, and they are input to Pins 4 and 5. These signals are added at the RF summing amplifier and inverted at the RF drive amplifier and then output to Pin 14.
390 68p 1k RF_ M 17 A C
I-V
13p BPF_SW 16
3.9k 4.9k 14
1p RFO 15 LPF_SW
20k PD1 PD2
I-V
10k 4 5 10k 2k VC VC RF Summing Amp RF Drive Amp
B D
The low frequency component of RFO output voltage is as follows: VRFO = 20k 4.9k x x (PD1 + PD2) 10k 2k
= 4.9 x (PD1 + PD2)
Focus Error Amplifier The operation of (PD2 - PD1) is performed and the resulting signal is output to Pin 12.
15P 348k PD1
I-V
32k 4 5 32k FE 12 Focus Error Amp 348k
PD2
I-V
174k VC
15P
The low frequency component of FE output voltage is as follows: VFE = 348k x (PD2 - PD1) 32k = 10.9 x (PD2 - PD1)
- 10 -
CXA2515AM/AN
Tracking Error Amplifier The signal current from the photodiode F is I-V converted and input to Pin 9 via an input resistor. The signal current from the photodiode E is I-V converted, and input to Pin 8 after its gain is adjusted by the volume. These signals undergo operational amplification at the tracking error amplifier and tracking drive amplifier, and are output to Pin 12.
11P VC 62k E 100k
I-V
5P 320k 8 F 9 TE1 10 73.4k TE VC 12
43k
I-V
110k
The low frequency component of TE output voltage is as follows: VTE = 110k 320k x x (F - E) 43k 73.4k
= 11.1 x (F - E) Center Voltage Generation Circuit The center voltage of VR = (VCC + GND) is supplied. The maximum current is approximately 3mA.
Vcc Vcc 40k Vc Buffer 40k 25 VR 6 VC
APC Circuit When the laser diode is driven with constant current, the optical output possesses large negative temperature characteristics. Therefore, the current must be controlled with the monitor photodiode to ensure the output remains constant. When APC_ON pin is connected to GND, APC is ON; connected to VCC, it is OFF.
VCC 100 56k PD 2 8k 55k 10k 10k 1.25V 56k 1 10H 100 500 10k 1k LD 1 22
- 11 -
CXA2515AM/AN
Example of Representative Characteristics
RFO_1 Frequency Response (W/O EQ)
30 30
RFO_2 Frequency Response (W/O EQ)
20
20
GAIN [dB]
10
GAIN [dB]
10 0 100k 1M FREQ. [Hz] 10M 100M 0 100k
1M FREQ. [Hz]
10M
100M
RF_Out Frequency Response (T-EQ)
30 30
TE_Out Frequency Response
20
20
GAIN [dB]
10 MODE = LOW MODE = HIGH 0 100k
GAIN [dB]
10 MODE = LOW MODE = HIGH 0 1M FREQ. [Hz] T-EQ As shown in Application Circuit 10M 100M 1k 10k FREQ. [Hz] 100k 1M
FE_Out Frequency Response
30 2.5 2.0 1.5 20
APC Characteristics
GAIN [dB]
1.0
LD [V]
10 0 100 1k FREQ. [Hz] 10k 100k
0.5 0 -0.5 -1.0 -1.5 -2.0 0 100 PD [mV] 200 300
- 12 -
CXA2515AM/AN
Package Outline CXA2515AM
Unit: mm
20PIN SOP (PLASTIC) 300mil
+ 0.4 12.45 - 0.1 20 11
+ 0.4 1.85 - 0.15
0.15
+ 0.3 5.3 - 0.1
7.9 0.4
+ 0.2 0.1 - 0.05
0.45 0.1
1.27
+ 0.1 0.2 - 0.05
0.12 M
PACKAGE STRUCTURE
PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE SOP-20P-L01 SOP020-P-0300-A LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY / PHENOL RESIN SOLDER PLATING COPPER ALLOY
0.3g
CXA2515AN
6.5 0.1
20PIN SSOP (PLASTIC)
+ 0.2 1.25 - 0.1 0.1 20 11 A
4.4 0.1
1
10 0.65
b
0.13 M
+ 0.05 0.15 - 0.02
(0.22) 0.1 0.1
b=0.22 0.03
0.5 0.2
DETAIL B : SOLDER
(0.15)
DETAIL B : PALLADIUM
NOTE: Dimension "" does not include mold protrusion. 0 to 10
PACKAGE STRUCTURE
DETAIL A
PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE SSOP-20P-L01 SSOP020-P-0044 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN SOLDER / PALLADIUM PLATING 42/COPPER ALLOY 0.1g
NOTE : PALLADIUM PLATING This product uses S-PdPPF (Sony Spec.-Palladium Pre-Plated Lead Frame).
- 13 -
+ 0.03 0.15 - 0.01
+ 0.1 b=0.22 - 0.05
6.4 0.2
0.5 0.2
1
10
6.9

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